Upskill Yourself with EDST e-Learning

EDST e-Learning is an online learning initiative by EDS Technologies leveraging 25 years of industry experience as the largest Engineering and Enterprise Solutions company in India. The online courses are curated by industry experts and academic subject-matter leaders.

EDST Technologies is a Certified Education Partner to Dassault Systèmes and an authorized Academic Partner to Autodesk ensuring certified industry-specific programs enabled through these partnerships. EDS Technologies has developed training programs tailor-made for students, beginners and advanced users in Automotive, Aerospace, Industrial Equipment, AEC and other industries. It has trained more than 60 thousand users and has experience of 6 million training hours in the last 25 years.

EDST Technologies capitalized years of experience in training and launched online learning platform EDST e-Learning. It specializes in Mechanical Engineering, Civil Engineering, and Industry based skills courses. Courses are meticulously curated by a team of industry experts and academicians. Currently, e-learning courses range from Product Design, Domain Courses, Industry CAD applications such as CATIA, AutoCAD, Solidworks Inventor, and Revit and is extensively working on launching new courses.

The industry is amidst the Industry 4.0 revolution and it is going to transform the workplace through technology innovations such as Artificial Intelligence, Cognitive Automation, Advanced Analytics Internet of Things and Advanced Robotics. As per Deloitte Consulting, there will be 4.6M manufacturing jobs to fill from 2018–2028 however skill gap may leave an estimated 2.4 million positions unfilled. EDST e-Learning’s vision is to bridge this skill gap and upskill the workforce of the future.

INFO

Digital Manufacturing: A Sustainable Future in Manufacturing for You

For the past decade, Digital Economy is transforming the traditional manufacturing process with modern digital systems. Digital Manufacturing has improved the Quality, Efficiency, and Sustainability of Manufacturing. Manufacturers are now open to new and improved business practices to start their digital transformation journey.

Traditional manufacturing has worked well so far for mass production by being cost-effective with short cycle times. However, extensive manufacturing equipment generates more waste with inventory overflow and high energy consumption. Whereas, digital manufacturing is sustainable, efficient, and flexible with boundless manufacturing opportunities.

Digital Manufacturing is modern manufacturing with end-to-end technology including hardware and software integration. Manufacturers have realized the need to optimize their business model to align with the modern market and start their digital transformation journey.

Each stage of the digital systems is connected, aligned, and improved. The digital simulations of 3D CAD models generated by PLM software enable product feedback and corrections. The design is digitally refined by addressing the issues and updating the product without affecting the time and cost of production. The product blueprint is finalized only after complete quality control and then sent for production.

Customers now seek customizable and unique products for their needs. It is easy to customize the product design as per customer requirements with reduced time consumption and manual labor.

Product testing is another important process in product manufacturing. Digital manufacturing enables the production of small batches for product testing and also provides better inventory control. This ensures further refining of the product to deliver better and more quality products in an efficient automated system. Also, it enables the ability to switch production and product design with the change in market trends and product demand. Digital transformation in manufacturing ensures a reduction in waste generation, time, and fuel consumption reinforces sustainability in the whole manufacturing process.

According to ‘Investing for a Sustainable Future,’ an MIT report, Sustainable Business Models are likely to generate twice the profit. By adopting Digital Manufacturing technology practices, manufacturers are saving time, cost, and conserving natural resources. Digital Manufacturing creates an automated process that helps project managers make informed decisions for efficient and faster production.

The future of digital manufacturing is bright and beaming with numerous opportunities for a sustainable world. At EDS Technologies, we strive to be part of the Movement for Global Sustainability in Business with our solutions. We also encourage our customers who are manufacturing companies to start their digital transformation journey with our engineering solutions such as DELMIA, CATIA, SIMULIA, ENOVIA and 3DEXPERIENCE for a better world.

Derive Customer Delight with Optimized Quality Control of your Product Data to meet your Organization Standards

Quality Control (QC) is a vital process in product development that guarantees defect-free products to customers. Ideally, product design and development is done with the perfect flow of data between different teams, departments, and companies with reduced cycle times. Manufacturers are always under pressure to produce a large volume of products in a shorter cycle leading to rushed quality checks.

The common issues in product data quality are incurred by errors and discrepancies in:

  • Norms and Standards in layers, naming conventions, parameters, start model, and drafting conventions.
  • Geometric continuity of leaks, holes, standard rotation, tiny edges, and duplicate entities.
  • Methods for functional tolerance annotations (FT/A), model links, feature order, and specification tree order.

If Quality Control is not implemented successfully, the business is at risk with their customers. For example, the recent case of defects in the airbags of a Japanese Global Automotive Parts Company resulted in one of the most significant automotive product recalls. The automotive company had to recall 69 million airbags valued at billions of dollars.

Successful implementation of quality control is important yet tricky. Quality checks are often done at the end of the production process, detecting the product issues after the fact. However, effective quality control includes two levels:

  • Engineers identify and address the errors and issues in the product design right away.
  • Operators observe the manufacturing process to ensure there are no variations in the product data.

Manual Quality Check is time-consuming and prone to human errors. Implementing the use of modern digital systems helps in optimizing quality control to produce error-free products efficiently. Q-checker is one such digital quality control tool that helps manufacturers to produce error-free final products.

Q-Checker is a Product Data Quality (PDQ) management application that ensures company design standards and specifications adherence within CATIA throughout the digital manufacturing process. Q-Checker is the world’s leading system for quality assurance in digital manufacturing developed by Technia. It enforces efficiency, productivity, and high product quality in the digital design and production processes.

Q-Checker is an add-on module integrated into CATIA V5 that checks the product data quality and provides a verified check seal for final product data. This check seal stores the model results with high security and enhances internal collaboration with suppliers. This seal saves the time of the follow-up teams by eliminating the need for parts checking to ensure product accuracy and quality.

The functions of Q-Checker are implemented on CAD models in interactive and batch mode to check CATProducts, CATParts, and CATDrawings. The profile editor establishes the criteria that the CAD models are checked for in the design process. The check profile has 400+ checks available, and it is possible to configure new checks with the profile editor as per user requirements for each OEM, project, process, and product.

The Q-checker profile consists of a series of files and folders that define which examinations are to be executed with which options. These files are viewed and edited in the check profile editor. A useful advantage of Q-Checker is the automatic heal option for 50% of the standard checks that help with the automation of the check and correction of parameters.

Key Features of Q-Checker:

  • Enforce CATIA standards: It ensures the company design standards adherence during the design process in a CATIA V5 system that helps in improved product quality, productivity and efficiency.
  • Establish Supplier Trust: Product design and development involves multiple suppliers sending their product data. Using Q-Checker throughout the OEM, the quality of the product data sent by a supplier possess a verified Check Seal, and the recipient can trust the supplier to send quality product data. Also, suppliers can assure the delivery of quality models within the confines of the design standard to their partners and customers.
  • Check files from other CAD software: CATIA users often use various CAD systems that create a problem in data translation and calls for redesign and rework. Q-Checker helps to check errors and make necessary adjustments for smooth data transfer.

Advantages of Q-Checker:

  • Saves Time spent on Corrections: Correcting the errors and mistakes in CAD models is not only takes consuming but also requires human labor and materials. The need for these corrections is eliminated by using Q-Checker. It identifies and repairs critical errors in product design that would be indistinct to the human eye.
  • Encourage Design Reuse: Most designers prefer rebuilding a new model instead of using an existing one as model errors are common with traditional designs. However, with Q-checker, the final designs are error-free, encouraging designers to reuse model designs that save the time of designers as starting from scratch on a new model is time-consuming.
  • Pro-active Learning: Using Q-Checker is like having the experience and advice of experts at hand that is especially helpful for new and learning designers. It helps these new designers going through the learning curve with the ability to meet the CAD standards expected by the customers.

 

Abaqus Python Scripting for Beginners

Abaqus FEA is the software suite for computer-aided engineering and finite element analysis. It is used for a wide variety of material modeling simulations in aerospace, automotive and industrial product industries. Abaqus also has multiphysics, structural-pore and piezoelectric capabilities that are valuable for production simulations in various industries.

Abaqus Scripting is a useful high-level tool that combines the functionality of Abaqus’ Graphical User Interface (GUI) with the power of  Python. Abaqus’ Scripting Interface is an application programming interface (API) to modify the data and models in Abaqus. The scripts used in this interface are called Python Scripts.

Python Scripts allow users to perform tasks in Abaqus that would be complex or impossible within the Abaqus GUI. With a script, users can easily automate repetitive tasks, vary parameters of a simulation, extract information from a vast output database and also create a user interface with customized Abaqus’ user interface, hiding parts of the interface from non-FEA team members.

The basic principles of Abaqus Scripting are:

  • Create, modify and save the model
  • Create script files with the input files generated by Abaqus
  • Create output
  • Run the generated script files to redo the calculation
  • Create a different model and output by adjusting the script

To perform these tasks, it is important to have a basic understanding of the Python programming language. Leveraging EDS Technologies’ industry experience in Abaqus, readers can look forward to a series of future blogs on Python Scripting for Abaqus.

Python is a high-level, object-oriented scripting language with its first implementation by Guido van Rossum in 1989 at Centrum Wiskunde & Informatica (CWI), the National Research Institute for Mathematics and Computer Science in the Netherlands. Python is one of the most revered and oldest scripting languages, preferred by Engineers, Scientists, Mathematicians, and Researchers to turn the engineering and mathematical concepts into Applications.

The key features of Python will help beginners understand why Python is so popular and used for Abaqus scripting.

Features of Python:

  • Expressive: It is one of the more expressive programs meaning it is easy to read and understand. Reading through a Python code is similar to reading English but this feature of python enables the coder to concentrate on the solution than the programming language.
  • Large Standard Library: It has an extensive library including modules, expressions, unit testing, databases, GUI, and various other elements for rapid application development.
  • Free and Open Source: It is available for free on the Python website with the open-source code. This is the main reason that makes Python so popular and preferred as it is constantly improved by the community.
  • Portable: Due to the open-source feature, Python holds the capability to run on different platforms such as Windows, Linux, Unix, and Macintosh, etc making it a portable language.
  • GUI Programming: Graphical user interfaces are easily developed using Python. This is one of the key aspects of this language as it enables users to add flair to the program and make the results visually attractive. Also, it supports a wide array of graphic user interfaces that can be easily imported.

As per the ‘Zen of Python’, the philosophy of the Python programming language, simple is better than complex. This series on Python Scripting is to simplify the learning path for beginners and provide an informative resource for Abaqus users. EDS Technologies also provides on-site training for Abaqus customers. Contact us to know more about our training services.

 

ABAQUS: A Complete Solution for Realistic Simulation

A myriad of products have been changing and improving the facet of our lives, be it machines, vehicles, life sciences. The way products are engineered has been changing recently, being more human-centric. Vehicles are engineered to give optimal driving experience, autonomous vehicles that drive by themselves giving the owner the luxury and comfort, there are many wearable devices being engineered to monitor health etc. To achieve this, a lot of non-destructive testing needs to be done which is achieved very efficiently through virtual simulations. Dassault Systemes’ SIMULIA, a step ahead in virtual analysis, offers the virtual simulation landscape with a variety of simulation and optimisation software like Abaqus, Fe-Safe, I-sight etc. SIMULIA provides a multitude of multidisciplinary, multi-scale simulation applications for various industries such as Aerospace and Defence, Transportation and Mobility, Life-sciences, High tech, Energy and Materials, Industrial Equipment, Heavy engineering etc.

Below are some of the salient features of Abaqus from the SIMULIA portfolio:

  1. Abaqus/Standard provides Abaqus analysis technology to solve traditional implicit finite element analysis, including static, dynamic, and thermal analyses, all powered with the widest range of contact and nonlinear material options. Abaqus/Standard also has optional add-on and interface products that address design sensitivity analysis, offshore engineering, and integration with third-party software.
  2. Abaqus/Explicit provides analysis technology focused on transient dynamics and quasi-static analyses using explicit time integration, which is appropriate in many applications, such as drop tests, crushing, and manufacturing processes.
  3. Abaqus/CAE provides a complete modelling and visualization environment for Abaqus analysis products. With direct access to CAD models, advanced meshing and visualization, and with an exclusive view towards Abaqus analysis products, Abaqus/CAE is the modelling environment of choice for many Abaqus users.
  4. Abaqus/CFD provides advanced computational fluid dynamics capabilities with extensive support for pre- and post-processing provided in Abaqus/CAE. These scalable parallel CFD simulation capabilities address a broad range of nonlinear coupled fluid-thermal and fluid-structural problems.
  5. For implicit and explicit analysis, Abaqus has it all integrated. You can switch from explicit/implicit between analysis steps.
  6. Abaqus CAE GUI is very user-friendly, and the user can model a problem in a real – virtual manner.
  7. Abaqus can be used for both linear and non-linear analysis.

A Technology Perspective on Occupant Ergonomics In Automotive Industry

The Automotive Industry is witnessing a transformation globally as well as in India. New technologies and government regulations are driving this transformation. More so, the Indian customers and their expectations from an automobile is changing notwithstanding the onslaught of shared and hired mobility service providers. It is imperative that Indian Automotive Industry takes cognizant of this and many of them already are. The consumer seeks a delightful experience from driving an automotive – be it shared or hired. The mileage and quality aspects are taken for granted while making a buying decision today.
Ergonomics is one of the areas which can bring a lot of experiential delight as well as adherence to safety norms. As norms become stringent and consumer preferences change to more personalization and comfort, many Automotive companies and component manufacturers are beginning to ensure that the products they manufacture are suited for the Indian demography. It is also important that they have the necessary technology platforms to do this. This article sums up the importance of Ergonomics and how Automotive Manufacturers can leverage technology platforms to ensure its compliance not only for the Indian market but also for the global market.

What is Automotive Ergonomics and its importance to the Indian Automotive Industry?
Ergonomics is the science that applies theories, principles, data and methods eds blog 2 to product design, with the goal to optimize user comfort, health and safety, as well as overall system performance. Automotive ergonomics is the study of how an automotive can be designed better for human use.
India is a strong and emerging market for automotive companies. It is also becoming a hub for global R&D as well as manufacturing. The automotive industry is very mature in terms of adoption of Digital Product Design and Validation. With this background, extending product design to Occupant Ergonomics is very easy with right technologies at your disposal.

Ergonomics Simulation – Doing it digitally

EDS Technologies in partnership with Human Solutions has offered technology platforms to many Indian Automotive companies for ergonomics simulation. Using 3D body scanners from Human Solutions, ARAI has created the first comprehensive database for the Indian population which can be utilized by Automotive companies.

RAMSIS is the de-facto standard worldwide in Automotive Industry in Occupant Ergonomics Simulation for interior vehicle design. RAMSIS was developed by Human Solutions and a consortium consisting of all German car manufacturers and two seat manufacturers in the 1980s. Today, more than 70% of the world’s car manufacturers use RAMSIS. Development of RAMSIS is still heavily supported by the German consortium and new developments and functions are in most cases based on input from automotive customers.

Screenshot 2018-12-18 at 3.22.20 PMThe use of RAMSIS in the design process increases the ergonomics quality of products and makes ergonomics an integral part of the design process. It allows manufacturers to put the end-user in the center of the development process and build the product that will offer a safe and comfortable environment to the targeted end-user population. From the earliest stage of the design process, until the final layout of the instrument panel, RAMSIS provides the methods, data and information to make well-founded, optimal design decisions from an ergonomic point of view.

Instant Ergonomics in practice with software:

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Automotive companies have realized the following benefits from RAMSIS in terms of
ergonomics and efficiency:

  • Faster time-to-market thanks to savings on time-consuming trial runs with test persons
  • Reduction in development costs of more than 50%
  • Detailed Statistical Knowledge about body dimensions and about ingress and egress
  • Realistic Predictions about future space and operation conditions inside a vehicle
  • Compliance with standards and ensuring of ergonomic quality such as the best accessibility and usability of all controls
  • Faster, enhanced product maturity and cost savings through the avoidance of planning errors
  • Virtual, International test collective to represent human size differences
  • Comparison of various vehicle concepts with the same test collective
  • Simulation of driver’s posture and motion behavior based on modern research
  • Effective integration into your product development process
  • Competitive advantages thanks to high level of comfort and safety

Traditionally, automobiles manufacturers from Europe, North America, South Korea or Japan were sold as it is or homologated with very little change from ergonomics perspective. Indian based OEMs also were also more focused on mileage. India has a very different demography when compared to these countries. It is important that products are designed and manufactured for Indian demography when the indented users are Indians.

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